KR960008021Y1 - Spot protecting circuit of monitor - Google Patents

Abstract

No summary.

Description

Monitor spot protection circuit

1 is a circuit diagram of a spot preventing circuit of a monitor according to the prior art,

2 is a circuit diagram showing one embodiment of a spot preventing circuit of a monitor according to the present invention.

* Explanation of symbols for main parts of the drawings

10: video signal amplifier 20: video signal driving amplifier

30: video signal output unit 40: spot prevention circuit

45: switching unit 100: blanking circuit

D1, D2, D11 ~ D14: Diodes R11 ~ R13, RG, RF: Resistance

Q1, Q2: transistors CB, CG, C11: capacitors

OP1 ~ OP3: Operational Amplifier

The present invention relates to a spot preventing circuit of a monitor, and more particularly, to a spot preventing circuit of a monitor which prevents spot phenomenon by removing unnecessary electric energy remaining in the circuit during power off.

As shown in FIG. 1, the diodes D11 and D12 are connected to the G1 electrode of the electron gun connected to the blanking circuit 100, as shown in FIG. A capacitor CB to which a high voltage power is applied is connected to a contact between the diode D11 and the diode D12. In addition, the resistors RG and RF are connected to the power line applied to the G2 electrode in the FBT, and the capacitor CG is connected to the contact point between the resistors RG and RF and grounded.

The conventional circuit configured as described above stops when the unranking signal at the G1 electrode turns off the power, so that a point charged at about 0 V is charged to -135 V by the capacitor CB, and the G1 electrode is charged through the diode D1. (Negative) It lowers to a potential and prevents emission of an electron beam.

Since the conventional technology is configured using a capacitor, it is not a full killer due to a delay due to time constant, and is connected to a blanking circuit, and thus there is a fear that mutual interference between circuits may occur.

The object of the present invention is to provide a spot preventing circuit of a monitor which prevents a phenomenon in which spots are generated by removing residual power of a circuit related to the G2 electrode during power off.

The spot prevention circuit of the monitor according to the present invention for achieving the above object is characterized in that, in the spot prevention circuit for removing the spot phenomenon by rapidly dropping the input potential of the video signal driving amplifier part when the power of the monitor is turned off. A capacitor connected to a B + power source having a high potential and a low potential according to a power supply on / off, and discharging a potential charged when the power of the monitor is powered off; A switching unit connected to the capacitor and turned off when B + power is applied and turned on when B + power is low; The cathode is connected to the switching unit and the anode is connected to the input terminal of the video signal driving amplifier, when the switching unit is composed of a plurality of diodes turned on to rapidly drop the input potential of the video signal driving amplifier to the ground.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the spot preventing circuit of the monitor according to the present invention will be described in detail.

2 is a circuit diagram of a spot preventing circuit of a monitor according to the present invention.

Here, the video signal amplifying unit 10, which amplifies the video signal, is connected to a video signal driving amplifying unit 20 including operational amplifiers OP1 to 0P3 for amplifying the color signals R, G, and B, respectively. The video signal output unit 30 for outputting a video signal is connected to the signal driving amplifier 20. The spot preventing circuit 40 is connected to the contact point between the video signal amplifier 10 and the video signal driving amplifier 20.

The spot prevention circuit 40 has diodes D11 ˜ D13 connected to input terminals of the three operational amplifiers OP1 ˜ 0P3 of the video signal driving amplifier 20 in parallel, and the diodes D11 ˜. The cathode of D13) is connected to one contact point and is connected to the switching unit 45.

The switching unit 45 has a resistor R12 connected to the cathodes of the diodes D11 to D13, and an emitter of the transistor Q2 at a contact between the diodes D11 to D13 and the resistor R12. Is connected, the collector of this transistor Q2 is grounded, the base is connected to the collector of transistor Q1, and the other terminal of the resistor R12 is the base of transistor Q2 and transistor Q1. It is connected between collectors. The base of transistor Q1 is grounded, and the emitter is connected to the B1 + power supply terminal via resistor R13.

A capacitor C11 is connected to the emitter of the transistor Q1 of the switching unit 45, a B + power is applied to the other terminal of the capacitor C11, and a contact between the capacitor C11 and the transistor Q1. The diode D14 connected to is grounded.

The circuit configured as described above has a low base potential of transistor Q1 because the power of B + is charged to capacitor C11 and the power of B1 + is applied to the emitter of transistor Q1 when the power of the monitor is powered on. Q1) is turned off. Therefore, the transistor Q2 has the collector and the base potential at the coin point, and the transistor Q2 is also turned off.

Since the transistor Q2 is in the off state, the cathode potentials of the diodes D11 to D13 are high, so the diodes D11 to D13 do not conduct, and thus have infinite resistance. When a high potential is formed at the emitter of the transistor Q1, the diode D14 conducts the diode D14 to protect the transistor Q1.

On the other hand, when the power supply of the monitor is turned off, the B + potential is lowered, so that the potential charged in the capacitor C11 is discharged to the emitter of the transistor Q1, and thus the negative potential is applied to the emitter of the transistor Q1. Relatively, the base potential of the transistor Q1 is increased so that the transistor Q1 is turned on. Accordingly, a bias of the transistor Q2 is formed and the transistor Q2 is also turned on.

Since the transistor Q1 is turned on to lower the cathode potential of the diodes D11 to D13, the diodes D11 to D13 are conducted so that the input potentials of the video signal driving amplifier 20 are converted to the diodes D11 to D13 and the transistor Q2. ), It rapidly discharges to ground to prevent spot phenomenon.

As described above, according to the spot prevention circuit according to the present invention, by removing the residual electric energy applied to the input terminal of the video signal driving amplifier by driving the switching unit of the spot prevention circuit connected to the input terminal of the video signal driving amplifier when the monitor is powered off It has the effect of eliminating the spot on the monitor.

Claims (3)

In the spot prevention circuit that drops the input potential of the video signal driving amplifier part rapidly when the power of the monitor is turned off, and eliminates the spot phenomenon, it is connected to the B + power supply whose potential rises and falls as the power of the monitor is turned on and off. A capacitor for discharging the electric potential charged when the power supply is turned off; A switching unit connected to the capacitor and turned off when B + power is applied and turned on when B + power is low; The cathode is connected to the switching unit and the anode is connected to the input terminal of the video signal driving amplifier, the spot prevention circuit of the monitor consisting of a plurality of diodes turned on to rapidly drop the input potential of the video signal driving amplifier to the ground when the switching unit is turned on . The method of claim 1, wherein the switching unit, the emitter is connected to the capacitor, the base is grounded, the collector is connected to the second transistor of the rear stage by the potential discharged from the capacitor when the power of the monitor is powered off A first transistor turned on; The base is connected to the collector of the first transistor, the collector is grounded, the emitter is composed of a second transistor is connected to the cathode of the plurality of diodes to switch according to the turn-on turn-off of the first transistor The spot prevention circuit of the monitor characterized by the above-mentioned. The spot preventing circuit of claim 2, wherein the second transistor is of a PNP type.